io9
Actual space technology has been making cars haul ass way faster for years now, including a solar car that broke speed records using parts taken directly from the Hubble Space Telescope. But that's nothing compared to what's on the way, including muscle cars that use heat-resistant pistons. Click through for details.
Nuna, a Dutch solar car, finished first in the 2001 World Solar Challenge, reaching a record-breaking top speed of 100 KPH and crossing from Darwin to Adelaide in a record-breaking 32 hours and 39 minutes. The car included dual junction and triple junction gallium-arsenide solar cells, which the European Space Agency had developed for its SMART-1 mission to the Moon. The car also had Maximum Power Point Trackers, which balance the power output between the battery and the solar cells, and which the ESA included on its Rosetta space probe. And the Hubble Space Telescope's contribution was two solar strips from its large solar array, salvaged by an astronaut in 1993. Here's a video. Let's not mock the wacky Dutch accents:
And Nuna's successor, Nuna II, uses improved ESA solar cells that harvest 20 percent more power.
But it's not just solar cars that are benefiting from space technology. The Pescarolo-Judd C 60 prototype racing car uses composite materials developed for space flight to reduce its weight by 38 kg, giving it better heat protection while boosting its speed.
And this is just the beginning of the ways space tech is being used in super-fast cars, or will soon be.
A special kind of carbon fiber known as carbon-carbon, developed for missile nosecones, is already used to create car brakes that can withstand temperatures of up to 3000 F. But soon, NASA says, it'll be used to create higher performance pistons and connecting rods that could allow engines to go way faster without overheating.
And when you're taking sharp turns at 150 mph, you'll soon be in less danger of rolling over and ending up looking like an accordion. The Jet Propulsion Laboratory's Variable Dynamics Testing (VDT) vehicle will use a computer algorithm to alter several factors in rollovers, including the "understeer coefficient," load-transfer distribution and frequency and damping of the "vehicle roll mode."
Not to mention the fact that NASA sponsored a contest to develop a "Personal Air Vehicle," aka "flying car."
Meanwhile, the Mars Spirit Rover's AutoNav system lets it navigate the Martian terrain unaided, and could help to lead to the driverless cars that GM and other carmakers say we'll have within a decade.
Actual race cars pack a lot of technology from the space program. For example, NASCAR drivers used to suffer third-degree burns on their feet, when the metal floorboards of their cockpits reached 330 F from the overheating engines... until 1996, when NASCAR and the Kennedy Space Center experimented with installing the heat shields from the Space Shuttle in its cars. Similarly, the cooling flame-retardant suits NASCAR drivers wear come from the Advance Crew Escape Suits (ACES) worn by Shuttle crews.
And then there are some uses of NASA technology that improve cars in less turbo-charging ways. Like this child car seat, which uses NASA's "systems integration expertise" to creating a better environment for the kiddies, including an entertainment system, video monitoring and a biotelemetry tracking system. Basically, it's like putting your kid inside a Teletubbie. And then there's this car wax, which claims to use NASA technology to ensure you'll never have to wax your car again. It looks like NASA is pretty desperate to find some valuable uses of its technology before its budget gets sliced down to nothing.
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NASCAR drivers used to suffer third-degree burns on their feet, when the metal floorboards of their cockpits reached 330 F from the overheating engines.
Gentlemen, start your skin grafts.
And when you wear a diaper you don't have to stop to pee.
Yes, you might say that NASA was working on technology transfer like it was their job. Which it kinda, well, is. They do have a department devoted to just that, called the "office of technology transfer" no less, and I'm pretty sure it's somewhere in their mission statement/charter as well.
you only need to look at formula 1 to see latest in Space/automotive tech being combined.
BMW has the 5 th or so fastest supercomputer in Europe which they use for CFD. The other teams are also in the process of getting their hands on similarly fast supercomputers.
F1 cars have had carbon brakes for a while now. Rules dont allow them to have Carbon-carbon engine internals or parts. last year Ferrari came up with a gas mixture(50% CO2 and 50%HFC irc) to extend the life of their race tires beyond what the other teams were getting on theirs.
its too bad that the F1 engineers still have their hands tied behind their back with the rules the FIA have in place to try and slow the speeds down.
@hungry_for_worms: "its too bad that the F1 engineers still have their hands tied behind their back with the rules the FIA have in place to try and slow the speeds down."
Yeah, but on the other hand, what's the competition gonna do once you can just rocket directly from Naples to Geneva is three minutes? At some point you have to say "Gentlemen, this is a sport between drivers, not cars."
The heat resistant material from the space suits was invented by the company I work for. Its pretty interesting stuff. Extremely light weight and dense. You could place it on your palm, take a blow torch to one side and the the side touching your hand would only get slightly warm... stuff is called NoMex. Cool stuff.
Who would've thought a company that invented Felt would go on to making stuff for NASA. NASA geeks aren't all that geeky either, they have some pretty non-geeky looking people.
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